Offshore-Wind-Farm Configuration Using Diode Rectifier With MERS in Current Link Topology

This paper proposes a novel current link topology with a diode rectifier and magnetic energy recovery switch (MERS) using a current source inverter for offshore-wind-farm application. Despite the use of a diode rectifier, the proposed topology is capable of regulating individual turbine torque parti...

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Veröffentlicht in:IEEE transactions on industrial electronics (1982) 2013-07, Vol.60 (7), p.2930-2937
Hauptverfasser: Kawaguchi, T., Sakazaki, T., Isobe, T., Shimada, R.
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container_end_page 2937
container_issue 7
container_start_page 2930
container_title IEEE transactions on industrial electronics (1982)
container_volume 60
creator Kawaguchi, T.
Sakazaki, T.
Isobe, T.
Shimada, R.
description This paper proposes a novel current link topology with a diode rectifier and magnetic energy recovery switch (MERS) using a current source inverter for offshore-wind-farm application. Despite the use of a diode rectifier, the proposed topology is capable of regulating individual turbine torque partially. Because offshore wind condition is more stable and has less turbulence intensity (typically 0.08) than that of onshore wind, the individual full-range controllability realized typically by pulse-controlled converters is not necessary. Instead of them, the proposed scheme, a diode rectifier with MERS, has only partial controllability of the individual generator torque which is estimated to be sufficient to achieve the maximum power point tracking operation for offshore-wind-farm application. The proposed topology is aiming to be applicable for offshore wind farms where maintenance reduction is conclusively a critical issue because of the inaccessibility. In this paper, experimental results represent the effectiveness of the topology. Moreover, a new control strategy for offshore wind farms with the proposed topology is also proposed.
doi_str_mv 10.1109/TIE.2012.2217716
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Despite the use of a diode rectifier, the proposed topology is capable of regulating individual turbine torque partially. Because offshore wind condition is more stable and has less turbulence intensity (typically 0.08) than that of onshore wind, the individual full-range controllability realized typically by pulse-controlled converters is not necessary. Instead of them, the proposed scheme, a diode rectifier with MERS, has only partial controllability of the individual generator torque which is estimated to be sufficient to achieve the maximum power point tracking operation for offshore-wind-farm application. The proposed topology is aiming to be applicable for offshore wind farms where maintenance reduction is conclusively a critical issue because of the inaccessibility. In this paper, experimental results represent the effectiveness of the topology. 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subjects Capacitors
Current link topology
current source inverter (CSI)
diode rectifier
Generators
Logic gates
magnetic energy recovery switch (MERS)
offshore wind farm
Switches
Topology
Torque
wind energy conversion system
Wind turbines
title Offshore-Wind-Farm Configuration Using Diode Rectifier With MERS in Current Link Topology
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